Determine the velocity and pressure at sections 2 and 3 if water flows steadily through the pipe system shown in Figure.
Q: Determine two possible angles θ1 and θ2 at which this can be done. Water flows from the hose at…
A:
Q: As given in the figure, the water flowing into a tank at a constant speed will make the tank in 5…
A: As we know that The density of water = 1000kg/m3 Given that the time required to fill the tank up to…
Q: Determine the corrected flow in pipe BE of the pipe network shown. Use f=0.012 for all pipes and…
A:
Q: A horizontal 154 mm diameter pipe gradually reduces its section to 53 diameter, subsequently…
A: Pipe diameter at the inlet, d1=154 mm=0.154 mPipe diameter at the section 2, d2=53 mm =0.053…
Q: Q1) Oil of specific gravity s.g = 0.8 is drawn into the pump, the pressure at A is -20 kpa and at B…
A:
Q: Water is flowing through a horizontal pipe of diameter 200 mm at a velocity of 3 m/s. A circular…
A: We have, Diameter, d=200 mm=0.2 m, V=3 m/s Diameter of circular plate, d1=150 mm=0.15 m (as…
Q: Problem 3 – Water from a large tank flows thru the pipe system shown at a rate of 10 ft³/s and…
A:
Q: Water issues from the-14 nozzle of a horizontal hose- pipe. The hose has an internal diameter of 70…
A: Find the flow rate through the pipe.
Q: A pump draws water from reservoir A and lifts it to reservoir B as shown in figure 4. Elev. of water…
A: Given:-
Q: Determine the time required for the flow in the pipe system shown below to reach 80% of the maximum…
A: a = area of the valve A = area of the tank velocity of fluid when fluid reached height "h" = 2gh…
Q: Water flows from a reservoir through a pipeline as shown in the following diagram. The flow is…
A:
Q: 4.) A 7 mm diameter tube is connected in series to a 38 mm diameter tube. Water flows at 8.5 m/s in…
A:
Q: Water flows through a standard 90 ° elbow at a velocity of 27 ft/s. Determine the horizontal and…
A:
Q: Determine the discharge, the velocity of flow and pressure at the point (2)?
A: Pipe diameter, d=6cm=0.06m
Q: Water at 40 degrees C is flowing from A to B through the system shown below. Determine the…
A: Given data as per question Lz=30m1 in=0.0254 mD1=4 in=0.1016mD2=6 in=0.1524 mPA=PB=Atmospheric…
Q: The water is siphoned out of the tank shown in Figure Q4 (b). Determine the flow rate from the tank…
A:
Q: 5) The power input of the pump is 10 kW and the friction head loss between A and B is 1.25 m, as…
A:
Q: Water @ 4C flows through a 100-mm ID smooth pipe. The Reynolds # of the flow is 150000. Determine…
A: To Find : The maximum velocity. Given : The diameter is d=100 mm. The Reynolds number flow is…
Q: 2. Gas (p = 0.0022 lb/ft³) flows through duct shown in fig. At A flow rate is 60 ft³/s under a…
A: Given Data The density of the gas is: ρ=0.0022 lb/ft3 The flow rate of the gas is: 60 ft3/s The…
Q: Q1) Oil of specific gravity s.g = 0.8 is drawn into the pump, the pressure at A is -20 kpa and at B…
A: Let Q =Discharge =0.07m3/s dB= Diameter of Pipe =80mm A =Area of pipe =0.005m2 g =Acceleration due…
Q: Water flows into the horizontal bend fitting at A with a velocity of V = 6 m/s, and exits at B into…
A: FREE BODY DIAGRAM is a diagram of the system which represents all the forces acting on the system.…
Q: Q4) Determine the required diameter of the pipe at A so that water flows through the pipes at the…
A: we will calculate flow velocity
Q: Figure Q1 shows the air pumped into the top of the tank so that the pressure at B is 50 kPa.…
A:
Q: ! A B C D =150 mm 4-50 mm 1,5 m 3,6 m 2,4 m
A: given; vertical distance from point C to B (h1)=1.5mvertical distance from point C to D…
Q: The velocity of the liquid flowing through the rusty iron pipe having a 150 mm diameter is 2.5 m/s.…
A:
Q: For the system shown below, calculate the vertical distance (in meters) between the surfaces of the…
A:
Q: As shown in the figure, the water entering axially into a turbine wheel emerges at a velocity of V =…
A:
Q: Calculate the velocity of the fluid at point 2 as it flows through the tube. 9 m 5 m Water Select…
A:
Q: As shown in Figure 4, a horizontal pipe with radius 0.0200 m bends str upward through a height of…
A:
Q: Problem 1 - Water is drawn into the pump, such that the pressure at the inlet A is -6 psi and the…
A: Given:Inlet pressure=-6 psi =-864 Pascal force/ft2Exit pressure=20 psi =2880 Pascal…
Q: Q6: B) Water is siphoned from the open tank as shown in fig.(2). Determine the volumetric discharge…
A:
Q: Obtain an expression for the volume flow rate at the exit of the mixing chamber in terms of the…
A: Given data: Stream 1 inlet volume flow rate=V1Stream 1 inlet fluid density=ρ1Enthalpy of the Stream…
Q: Calculate the flow rate of the system by accepting the fluid passing through the reservoir-pipe…
A:
Q: For the system, determine the flow rate of oil coming out of the tank velocities and pressures at A…
A: GivenX=5.6mY=1.2m
Q: The water is siphoned out of the tank shown in Figure 4 (b). Determine the flow rate from the tank…
A: According to the problem, the water is siphoned out of the tank so the pressure at the end where the…
Q: Water flows through the 180 degree bend and Nozzle assembly as shown in the Figure below. Assume the…
A: Given, At Inlet, Pressure, p1=100 kPaVelocity, V1=2m/sDiameter, d1=300 mm At Outlet, Diameter,…
Q: the diameters of a tapering pipe at the sections 1-1 and 2-2 are 100 mm and 150 mm respectively. if…
A: flow rate is same at 1-1 & 2-2 sections Q=A1V1 = A2V2 d1= 100mm = 0.1m Q= A1V1 = 3.14/4 *(0.1)2…
Q: For the laminar flow of 20°C water in the circular pipe shown find: a) the velocity at r = 4.0 cm.…
A:
Q: A pipeline carrying oil of specific gravity 0.87, changes in diameter from 200 mm diameter at a…
A: Given, SG= 0.87 dA = 0.2 m dB = 0.5 m zA = 0 m zB = 4 m pA = 9.81 N/cm2 = 98100 N/m2 pB = 5.886…
Q: Oil of density ρ=880 kg / m3 flows through the Venturi tube (pictured). Calculate the flow if given:…
A: GIVEN:- Oil of density :ρ=880 kg / m3 Outer diameter: D=24 mm, Inner diameter: d=12 mm, h=440 mm…
Q: Q8) A fountain ejects water through a nozzle, which have inner diameters of 0.3 mm, at B as shown.…
A: Find the height (h) and pressure at A.
Q: Water flows into the horizontal bend fitting at A with a velocity of V = 4.2 m/s, and exits at B…
A: Given:
Q: Problem 3. Water in the reservoir flows through the 8-in.diameter pipe at A into the turbine. If the…
A:
Q: Prove that the loss of pressure head for the viscous flow through a circular pipe is given by h.
A: Considering a circular pipe of constant diameter D
Q: Water is flowing from the tank into a series of pipes and then into the atmosphere through 75…
A:
Q: Hydraulic oil flows through the system shown so that the velocity delivered at B is 67 ft/sec. The…
A: Given Data, Taking datum line is the centerline of 10-in schedule 40 steel pipe VB = velocity at…
Q: Q1) Oil of specific gravity s.g 0.8 is drawn into the pump, the pressure at A is -20 kpa and at B is…
A: Fluid is a state of matter which deforms continuously on the application of force externally,…
Q: Figure Q1 shows the sewage siphon which regulates the level of water in the large holding tank A.…
A:
Q: Part A If the discharge at B is 0.25 m /s, determine the power output of the pump. Neglect friction…
A:
Q: What power must be supplied by the pump to the flow if water (T =20°C) is pumped through the 300 mm…
A: Concept Of Fluid Mechanics Used
Determine the velocity and pressure at sections 2 and 3 if water flows steadily
through the pipe system shown in Figure.
Step by step
Solved in 2 steps with 2 images
- Partial answer (a) max and min shear stress = +- 10.6 kpsi (b) vB=-0.0102 in and wB=.0234 inThe wood beam supports loads of w - 440 lb/ft and P - 840 lb on span lengths of Lap - 11.6 ft, Loc - 5.8 ft, and Lco- 5.8 ft. The beamcross section has dimensions of bj - 1.3 in., dj - 3.9 in., by - 4.8 in, and dy - 9.85 in. Determine the magnitude and location of:(a) the maximum horizontal shear stress in the beam.(b) the maximum tensile bending stress in the beam.Exd:Design the (T-beam) section have the properties: by =1200mm , hy = 150mm, d = 500mm, b,, = 300mm d' = 90mm(if needed), use f'. = 30Mpa., f, = 400Mpa W= 4002 (LTINS Gm The solution must be based on equations ASCE 7-10 Specifications.
- (a) Determine the shape factor/for a hollow cross-section having an inner radius of r1 and outer radius r2 (sec figure), (b) If the section is very thin, what is the shape factor?.m = 18kg and L = 1.28 mThe section modulus for the beam of hollow circular cross section of outer and inner diameters as 50mm and 35 mm respectively, is ______________ mm3. The section modulus (unit is in mm3)= ______________